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Control Technology: The Future Of Technology And Its Impact On Our Lives

Posted January 2019 Author William

Are your opinions really your own—or how much have they been carefully shaped until you think they are? Today’s digital connectivity makes it possible to share information like never before—traditional borders and constraints of distance simply do not exist anymore. But this same connectivity also makes it easier to manipulate the public’s perception of reality. The term “fake news” has become increasingly common in the past year—but it is only one facet of a much larger problem: the use of technology to alter public opinion, and ultimately affect the real world.

This is not a new phenomenon. At every point in human history where a new disruptive communications technology has replaced another, propaganda and manipulation flourish. Each communication method has its associated societal norms and customs, but these take time to form. What is allowed on television, radio, and print is well established—but the Internet has not reached that level of maturity yet.

“We need a program of psychosurgery for political control of our society. The purpose is physical control of the mind. Everyone who deviates from the given norm can be surgically mutilated.

“The individual may think that the most important reality is his own existence, but this is only his personal point of view. This lacks historical perspective. Man does not have the right to develop his own mind. This kind of liberal orientation has great appeal. We must electronically control the brain. Someday armies and generals will be controlled by electric stimulation of the brain.” ~ Dr. José Delgado. Director of Neuropsychiatry, Yale University Medical School Congressional Record, No. 26, Vol. 118 February 24, 1974.

Carolanne Wright – Psychotronics is the intersection between consciousness, energy fields and matter. In a bill introduced to the U.S. House of Representative in 2001, Dennis J. Kucinich describes psychotronic devices as “weapons” that can be used against individuals or specific populations to exert power over behavior and mood — essentially a form of mind control.

Russia has a long history of developing this class of technology, the most famous being the “Woodpecker” — a “Tesla-type transmitter” that emitted psychoactive signals in the 1970’s through the late eighties.

But Russia isn’t the only player in this dangerous game. GlobalResearch reports:

“Harnessing neuroscience to military capability, this technology is the result of decades of research and experimentation, most particularly in the Soviet Union and the United States. (Welsh, 1997, 2000) We have failed to comprehend that the result of the technology that originated in the years of the arms race between the Soviet Union and the West, has resulted in using satellite technology not only for surveillance and communication systems but also to lock on to human beings, manipulating brain frequencies by directing laser beams, neural-particle beams, electro-magnetic radiation, sonar waves, radio frequency radiation (RFR), soliton waves, torsion fields and by use of these or other energy fields which form the areas of study for astro-physics. Since the operations are characterized by secrecy, it seems inevitable that the methods that we do know about, that is, the exploitation of the ionosphere, our natural shield, are already outdated as we begin to grasp the implications of their use.”

In a 1998 German television documentary, Dr. Igor Smirnov, of the Institute of Psycho-Correction in Moscow, said that it’s easily conceivable that anyone who has the appropriate means and finances could inject himself into every computer network, radio or television broadcast with relative technological ease. “This is why such technology is rightfully feared.”

By now, a good number of people are familiar with the effects of electromagnetic pollution from cell phones, televisions, appliances, smart meters, computers and wi-fi. But could there be another more sinister reason why our health suffers when we’re exposed to these modern devices? Several U.S. patents suggest a disquieting answer.

Hidden mind control technology

“It is therefore possible to manipulate the nervous system of a subject by pulsing images displayed on a nearby computer monitor or TV set. For the latter, the image pulsing may be imbedded in the program material, or it may be overlaid by modulating a video stream, either as an RF signal or as a video signal.”

The invention can also be adapted to the source of video stream, whether a computer program, a television broadcast, video tape or DVD. Pulse variability can be influenced through the use of software in order to avoid habituation of the nervous system.

“Certain monitors can emit electromagnetic field pulses that excite a sensory resonance in a nearby subject, through image pulses that are so weak as to be subliminal. This is unfortunate since it opens a way for mischievous application of the invention, whereby people are exposed unknowingly to manipulation of their nervous systems for someone else’s purposes. Such application would be unethical and is of course not advocated. It is mentioned here in order to alert the public to the possibility of covert abuse that may occur while being online, or while watching TV, a video, or a DVD,” conclude the inventors.

Moreover, patents owned by Raytheon detail how to create “nuclear sized explosions without radiation” and describe electromagnetic pulse, power beam technology and over-the-horizon detection systems. One such patent (US 7629918 B2) describes the Multifunctional Radio Frequency Directed Energy System (RFDE):

“Radio frequency directed energy (RFDE) systems are known in the art for directing high power RF, microwave and/or millimeter wave electromagnetic energy to destroy or disrupt a target. Although RFDE systems typically serve as military weapons, RFDE systems need not be limited to weapon systems.

“An RFDE weapon system can go after a broad range of targets (electronics, biological, ordinance, structures, etc.) due to its relatively large radiated power. A priori knowledge of the intended target characteristics is typically not required because the RFDE weapon either burns-out or overwhelms its target by the shear amount of power it radiates.”

A disturbing possibility (among many) concerning this type of weaponry is the capability of using it to cause negative effects on human health and mental processes. And there is no escape or protection. Once a target is locked onto, it’s impossible to evade the electromagnetic energy by moving around.

Summaries of 85 additional patents relating to mental and emotional manipulation technologies can be found here.

As we contemplate the technological advancements — and ethical implications — relating to mind control, remember President John F. Kennedy’s warning in 1961:

“Today no war has been declared — and however fierce the struggle may be, it may never be declared in the traditional fashion. Our way of life is under attack… we are opposed, around the world, by a monolithic and ruthless conspiracy that relies primarily on covert means. … Whatever our hopes may be for the future — for reducing this threat or living with it — there is no escaping either the gravity or the totality of its challenge to our survival and to our security — a challenge that confronts us in unaccustomed ways in every sphere of human activity. … This is a time of peace and peril, which knows no precedent in history. It is the unprecedented nature of this challenge that also gives rise to… our obligation to inform and alert the American people — to make certain that they possess all the facts that they need, and understand them as well. … I have complete confidence in the response and dedication of our citizens, whenever they are fully informed.”

Magnus begins his speech telling the audience “Welcome to the Future” and it’s a very good way to start what he’s going to say next. He also chooses to quote Gerald McGuire and Ellen McGee that several times published scientific papers requiring some type of regulation of implantable devices. Even though they’re been developed since the 1940s-1960s, and even though they’re such a huge area of research right now, as we speak, if you ever mention them in health care, the staff will claim that they don’t even exist. No physical examination is usually made, and there is no explanation to why victims are in so much pain in very specific areas of their bodies and more.

Magnus has researched all aspects of the supercomputer systems based on transmissions from implants in the human body. He elaborates on the Artificial Intelligence research done today and what it’ll mean for humanity in the future. He understands that this technology can be used in good ways but unfortunately, if unregulated, it can lead to the real Orwellian “thought police” state.

He explores the possibility of using different avatars or agents, to assist people in their daily life and the developments of virtual worlds where people can enter as a third type of reality, apart from awaken state and the dream state. He talks about the NSAs supercomputer called “Mr. Computer” that has the ability to make its own decisions and the development of the new quantum computer, which is supposed to “marry” the old-fashioned Mr. Computer.

As interesting and fascinated his speech is, it’s easy to get lost in the new emerging world view that Magnus creates for a while. It’s tempered by the experiences he has, the immense 24/7 torture, the lack of privacy, the lost freedom of the mind and the necessity to cope with something that no human being should have to cope with: the most grotesques aspects of life.

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Magnus Olsson used to be a very successful businessman. Not only is Magnus highly educated, but he also had a very successful career: as an entrepreneur, stockbroker and businessman.

The Only Thing That Helped Magnus Olsson

MINI TESLA GENERATORS AS A FRONTIER OF QUANTUM

GENETICS

This show, with the original title “Control mental. El sueño dorado de los dueños del mundo” (Mind control. The golden dream of the world’s masters) — broadcasted to some 34 million people — was one of the biggest victories for victims of implant technologies so far. Thanks to Magnus Olsson, who, despite being victimized himself, worked hard for several years to expose one the biggest human rights abuses of our times – connecting people against their will and knowledge to computers via implants of the size of a few nanometers – leading to a complete destruction of not only their lives and health, but also personalities and identities.

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Very few people are aware of the actual link between neuroscience, cybernetics, artificial intelligence, neuro-chips, transhumanism, the science cyborg, robotics, somatic surveillance, behavior control, the thought police and human enhancement.

They all go hand in hand, and never in our history before, has this issue been as important as it is now.

One reason is that this technology, that begun to develop in the early 1950s is by now very advanced but the public is unaware of it and it goes completely unregulated. There is also a complete amnesia about its early development, as Lars Drudgaard of ICAACT, mentioned in one of his interviews last year. The CIA funded experiments on people without consent through leading universities and by hiring prominent neuroscientists of that time. These experiments have since the 50s been brutal, destroying every aspect of a person’s life, while hiding behind curtains of National Security and secrecy but also behind psychiatry diagnosis.

The second is that its backside –mind reading, thought police, surveillance, pre-crime, behavior modification, control of citizen’s behavior; tastes, dreams, feelings and wishes; identities; personalities and not to mention the ability to torture and kill anyone from a distance — is completely ignored. All the important ethical issues dealing with the most special aspects of being a free human being living a full human life are completely dismissed. The praise of the machine in these discourses dealing with not only transhumanism ideals but also neuroscience today has a cost and that is complete disrespect, despise and underestimation of human beings, at least when it comes to their bodies, abilities and biological functions. The brain is though seen as the only valuable thing; not just because of its complexity and mysteries, but also because it can create consciousness and awareness. We’re prone to diseases, we die, we make irrational decisions, we’re inconsistent, and we need someone to look up to. In a radio interview on Swedish “Filosofiska rummet” entitled “Me and my new brain” (Jag och min nya hjärna), neuroscientist Martin Ingvar referred to the human body as a “bad frame for the brain”. Questions about individual free will and personal identity were discussed and the point of view of Martin Ingvar was very much in line with José Delgado’s some 60 years ago, and its buried history of mind control: we don’t really have any choice, we’re not really having a free will or for that matter any consistent personality. This would be enough reason to change humans to whatever someone else wishes. For example, an elite.

Another reason for why this issue dealing with brain implants is important of course is the fact that both the US and the EU pour billions of dollars and euros in brain research every single year, a brain research very focused on not only understanding the brain, but also highly focused on merging human beings with machines; using neuro-implants to correct behavior and enhance intelligence; creating robots and other machines that think and make autonomous intelligent decisions — just like humans do.

Ray Kurzweil, who’s predictions about future technological developments have been correct at least until now, claims that in 20 years, implant-technology has advanced that far that humanity has been completely transformed by it. We cannot know right now whether he’s prediction is right or wrong, but we have the right to decide on the kind of future we want. I do not know if eradicating humanity as we know it is the best future or the only alternative. Today, we might still have a choice.

Something to think about: Can you research the depths of the human brain on mice?

The real-life Matrix: MIT researchers reveal interface that can allow a computer to plug into the brain

System could deliver optical signals and drugs directly into the brain

Could lead to devices for treatment of conditions such as Parkinson’s

It has been the holy grail of science fiction – an interface that allows us to plug our brain into a computer.

Now, researchers at MIT have revealed new fibres less than a width of a hair that could make it a reality.

They say their system that could deliver optical signals and drugs directly into the brain, along with electrical readouts to continuously monitor the effects of the various inputs.

Christina Tringides, a senior at MIT and member of the research team, holds a sample of the multifunction fiber that could deliver optical signals and drugs directly into the brain, along with electrical readouts to continuously monitor the effects of the various inputs.

HOW IT WORKS

The new fibers are made of polymers that closely resemble the characteristics of neural tissues.

The multifunction fiber that could deliver optical signals and drugs directly into the brain, along with electrical readouts to continuously monitor the effects of the various inputs.

Combining the different channels could enable precision mapping of neural activity, and ultimately treatment of neurological disorders, that would not be possible with single-function neural probes.

‘We’re building neural interfaces that will interact with tissues in a more organic way than devices that have been used previously,’ said MIT’s Polina Anikeeva, an assistant professor of materials science and engineering.

The human brain’s complexity makes it extremely challenging to study not only because of its sheer size, but also because of the variety of signaling methods it uses simultaneously.

Conventional neural probes are designed to record a single type of signaling, limiting the information that can be derived from the brain at any point in time.

Now researchers at MIT may have found a way to change that.

By producing complex fibers that could be less than the width of a hair, they have created a system that could deliver optical signals and drugs directly into the brain, along with simultaneous electrical readout to continuously monitor the effects of the various inputs.

RELATED ARTICLES

The newC technology is described in a paper in the journal Nature Biotechnology.

The new fibers are made of polymers that closely resemble the characteristics of neural tissues, Anikeeva says, allowing them to stay in the body much longer without harming the delicate tissues around them.

To do that, her team made use of novel fiber-fabrication technology pioneered by MIT professor of materials science Yoel Fink and his team, for use in photonics and other applications.

The result, Anikeeva explains, is the fabrication of polymer fibers ‘that are soft and flexible and look more like natural nerves.’

Devices currently used for neural recording and stimulation, she says, are made of metals, semiconductors, and glass, and can damage nearby tissues during ordinary movement.

‘It’s a big problem in neural prosthetics,’ Anikeeva says.

The result, Anikeeva explains, is the fabrication of polymer fibers ‘that are soft and flexible and look more like natural nerves.

HOW IT WORKS

The new fibers are made of polymers that closely resemble the characteristics of neural tissues.

The multifunction fiber that could deliver optical signals and drugs directly into the brain, along with electrical readouts to continuously monitor the effects of the various inputs.

Combining the different channels could enable precision mapping of neural activity, and ultimately treatment of neurological disorders, that would not be possible with single-function neural probes.

‘We’re building neural interfaces that will interact…

The result, Anikeeva explains, is the fabrication of polymer fibers ‘that are soft and flexible and look more like natural nerves.’

‘They are so stiff, so sharp — when you take a step and the brain moves with respect to the device, you end up scrambling the tissue.’

The key to the technology is making a larger-scale version, called a preform, of the desired arrangement of channels within the fiber: optical waveguides to carry light, hollow tubes to carry drugs, and conductive electrodes to carry electrical signals.

These polymer templates, which can have dimensions on the scale of inches, are then heated until they become soft, and drawn into a thin fiber, while retaining the exact arrangement of features within them.

A single draw of the fiber reduces the cross-section of the material 200-fold, and the process can be repeated, making the fibers thinner each time and approaching nanometer scale.

During this process, Anikeeva says, ‘Features that used to be inches across are now microns.’

Combining the different channels in a single fiber, she adds, could enable precision mapping of neural activity, and ultimately treatment of neurological disorders, that would not be possible with single-function neural probes.

For example, light could be transmitted through the optical channels to enable optogenetic neural stimulation, the effects of which could then be monitored with embedded electrodes.

Combining the different channels in a single fiber, she adds, could enable precision mapping of neural activity, and ultimately treatment of neurological disorders, that would not be possible with single-function neural probes.

At the same time, one or more drugs could be injected into the brain through the hollow channels, while electrical signals in the neurons are recorded to determine, in real time, exactly what effect the drugs are having.

MIT researchers discuss their novel implantable device that can deliver optical signals and drugs to the brain, without harming the brain tissue.

The system can be tailored for a specific research or therapeutic application by creating the exact combination of channels needed for that task. ‘You can have a really broad palette of devices,’ Anikeeva says.

While a single preform a few inches long can produce hundreds of feet of fiber, the materials must be carefully selected so they all soften at the same temperature.

The fibers could ultimately be used for precision mapping of the responses of different regions of the brain or spinal cord, Anikeeva says, and ultimately may also lead to long-lasting devices for treatment of conditions such as Parkinson’s disease.

John Rogers, a professor of materials science and engineering and of chemistry at the University of Illinois at Urbana-Champaign who was not involved in this research, says, ‘These authors describe a fascinating, diverse collection of multifunctional fibers, tailored for insertion into the brain where they can stimulate and record neural behaviors through electrical, optical, and fluidic means.

The results significantly expand the toolkit of techniques that will be essential to our development of a basic understanding of brain function.’

The Race for the Brain (history documentary about brain research including brain implant)

Documentary about brain research including brain implant in Norway in the 60’s on behalf of the U.S. Military, Air-force, Army, Navy and the C.I.A. The research was done on unwitting patients without any kind of consent.

Shortened version of a Norwegian TV Documentary.
First aired 22. November 2000 on the Norwegian State TV Channel TV2.

What kind of privacy and security measures are needed when a machine can read your mind?

In recent decades, meetings between information technology, biotechnology, and neuroscience have produced entirely new research, which is developing new, previously unknown products and services.

From nanotechnology opportunities for computer-brain integration occurs even an entirely new civil-military research, to develop a communication between computers and human minds / thoughts, called synthetic or artificial telepathy.

Understanding how the human brain works is not only leading to innovations in medicine, but also providing new models for energy-efficient, fault tolerant and adaptive computing technologies.

Research about artificial neural networks (signal processing) systems, and evolutionary, genetic algorithms, resulting in that you can now construct a self-learning computer programming themselves among others to read the human brain’s memories, feelings and knowledge.

Bioelectronics and a miniaturized signal processing systems in the brain may play in brain functional arkitektuer and through the spoken language to find out what the signals mean.

It is about creating a computer model of the brain including the evidence should provide the answer to what a person is, what is a conscience? What a responsibility is? Whence arises norms and values, etc.?None of these questions can be answered without copy the brain’s functional architecture.

Research Council Ethics Committee wrote the following on medical ethics Nano 2004:

Plus and minus with nanotechnology.

+ It is good to give medicine into the brain via the blood-brain barrier. + It is good to insert electrodes into the brain to give sight to a blind or to control a prosthetic hand. + It is good to use nanotechnology to stem terrorism on innocent people. + It is good for those who can afford to exploit nanotechnology for their own health and their own prosperity.

– It’s not good when the particles that enter the body through the lungs and stresses the heart and other organs.

– It’s not good if the technology used to read or to influence others’ thoughts, feelings and intentions.

– There is no good if the same technology used to control and manage the innocent people.

– It’s not good for the poor, who do not have access to the advanced technology.

Is it ethical for researchers to retain parts of uploaded minds (copied biologically conscious) that when the copied person is deceased?

Charles Darwin collected on his time in a variety of materials to describe the diversity of species and to announce his great work in 1859, if the origin of species (evolution theory)

Just as Charles Darwin collected the amounts of material, now played human neurons and nervous systems in bit by bit, in order to simulate the human brain and nervous system of the computer models.As computers developed enough power, research will be able to simulate a human brain in real time.

There are already injectable bioelectronics and multimedia technology as a “hang out” with people for years to clone their feelings, memories and knowledge. The protection against illegal recording and exploitation of people, according to Swedish European professors are not enough.

Ethical aspects of so-called ICT (Information and Comunication Technologies) implants in the human body are discussed for several years at the European level of The European Group on Ethics in Science and New Technologies under the guidance of such Professor Goran Hermerén. One of the recommendations is that the dangers of ICT implants will be discussed in EU countries. But this has in any event not occurred in Sweden.

By using the new technology to read and copy human neurons and nervous systems so computers can learn ontologies and later “artificial intelligence”, an intelligence that has no ethical foundations and values.

“Artificial intelligence” is a research area that aims to develop computer-based applications that behave and act in a manner that is indistinguishable from human behavior.

The next step in computer development, computers / software that imitate humans. These computers come with their artificial intelligence to be able to threaten the man’s integrity, identity, autonomy and spirituality.

Years of recordings of people using the Carbon Nanotubes as Electrical Interfaces with Neurons in the cortex,

and cognetive radio technology visualizes piecemeal man’s own self, this is copied to the new more powerful computers.

Some of the research with brain implants (ICT) to clone the human brain is conducted according to many sources, without informed consent. This is probably because the ethical appeal can not be approved for life-long computerized study of brain implants (Carbon Nanotubes as Electrical Interfaces with Neurons in the cortex), where the consequences for the individual is destruction more than the benefits of the research.

Illegal computer cloning could lead to unprecedented physical, psychological and legal consequences for man and society. Illegal data cloning (copy) also involves research to do everything in their power to bring technology to the ICT implants read and copy pro men’s thoughts is not disclosed.

Nanoscience and biological implants can lead to serious problems if the technology is used in ways that violate people’s privacy. It is almost impossible to find electronic components, when incorporated in nanoscale particles. Businesses and governments will this new technology to find out things about people in a whole new way. Therefore, nanotechnology will also require new laws and regulations, just as the development of computers has contributed to the enactment of such Personal Data Act.

Swedish Professors also ask, how can you prevent and control the unauthorized use of nanotechnology, although there are legislation? Traceability, or rather the scarcity of traceability, is a perennial topic of debate on ethics, risk and safety. Another recurring theme is the monitoring, how nanotechnology can be used for monitoring purposes, where the individual or group is unaware of the surveillance and unable to find out if she / they are supervised (e) or not.

The government and their ethical advice, according to the EU has a responsibility to inform and educate the community in this new area of research. This has not been entrusted to the government was aware of the technologies already in 2003.

That some of today’s important scientific breakthroughs in nanotechnology / bioelectronics and information not published, because the established academic, financial and political centers of power to preserve their interests and protect unethical research on humans, research thus miss opportunities revealed. Research and its implications are misleading in relation to the judiciary and traditional medical diagnostics. It also goes against all human rights conventions.

Instead of Sweden and Europe, through their political gatekeepers favors confidential unethical civilian-military research on the civilian population during the development of software and networking technologies for medical and military surveillance would research it can make its research progress and the new paradigm’s insights.

In this way Sweden could use progress to solve many of its current political problems and be able to make an international pioneer work for the benefit of all mankind.

We want this website to create an awareness and an awareness that many of the new technologies described developed on the civilian population in the world, without their consent and / or knowledge, for many years.

Mindtech cooperate with the media and the Church to try to push the ethical debate that the EU research council and Professor Goran Hermerén initiated in this topic back in 2004. An ethical debate that has since been blacked out by the research and its representatives.

Know someone who is multi-media online but do not dare talk about it?

It is easy not to be believed for a person who alleges that a paradigm shift in computer-brain integration and multimedia technology is already here.

We are aware that portions of the information here may sound like pure science fiction, but it is already a real reality.

It sounds like the stuff of science fiction dreams – or nightmares.

Scientists believe they have found a way to read our minds, using a computer program that can decode brain activity in our brains and put it into words.

They say it could offer a lifeline to those whose speech has been affected by stroke or degenerative disease, but many will be concerned about the implications of a technique that can eavesdrop on thoughts and reproduce them.

Scroll down for video

Scientific breakthrough: An X-ray CT scan of the head of one of the volunteers, showing electrodes distributed over the brain’s temporal lobe, where sounds are processed

Weird science: Scientists believe the technique, shown here, could also be used to read and report what they were thinking of saying next

Neuroscientists at the University of California Berkeley put electrodes inside the skulls of brain surgery patients to monitor information from their temporal lobe, which is involved in the processing of speech and images.

As the patient listened to someone speaking, a computer program analysed how the brain processed and reproduced the words they had heard.

Words with scientists: The top graphic shows a spectrogram of six isolated words (deep, jazz, cause) and pseudo-words (fook, ors, nim). At bottom, the speech segments how the words were reconstructed based on findings from the electrodes

Robert Knight, professor of psychology and neuroscience, added: ‘This is huge for patients who have damage to their speech mechanisms because of a stroke or Lou Gehrig’s [motor neurone] disease and can’t speak.

‘If you could eventually reconstruct imagined conversations from brain activity, thousands could benefit.’

The researchers tested 15 people who were already undergoing brain surgery to treat epilepsy or brain tumours.

They agreed to have up to 256 electrodes put on to the brain surface, as they listened to men and women saying individual words including nouns, verbs and names.

Testing: As a subject listened to someone speaking, a computer program analysed how the brain processed and reproduced the words they had heard

Breakthrough: The ability to scan the brain and read thoughts could offer a lifeline to those whose speech has been affected by a stroke or degenerative disease

A computer programme analysed the activity from the electrodes, and reproduced the word they had heard or something very similar to it at the first attempt.

Co-author Brian Pasley said there is already mounting evidence that ‘perception and imagery may be pretty similar in the brain’.

Therefore with more work, brain recordings could allow scientists to ‘synthesise the actual sound a person is thinking, or just write out the words with a type of interface device.’

Their study also shows in sharp relief how the auditory system breaks down sound into its individual frequencies – a range of around 1 to 8,000 Hertz for human speech.

Pasley told ABC News: ‘This study mainly focused on lower-level acoustic characteristics of speech. But I think there’s a lot more happening in these brain areas than acoustic analysis’.

He added: ‘We sort of take it for granted, the ability to understand speech. But your brain is doing amazing computations to accomplish this feat.’

Analyzing words: This graphic breaks down the three ways the brain hears spoken words and processes sounds

This information does not change inside the brain but can be accurately mapped and the original sound decoded by a computer. British expert Professor Jan Schnupp, from Oxford University who was not involved in the study said it was ‘quite remarkable’.

‘Neuroscientists have of course long believed that the brain essentially works by translating aspects of the external world, such as spoken words, into patterns of electrical activity’, he said.

‘But proving that this is true by showing that it is possible to translate these activity patterns back into the original sound (or at least a fair approximation of it) is nevertheless a great step forward, and it paves the way to rapid progress toward biomedical applications.’

He played down fears it could lead to range of ‘mind reading’ devices as the technique can only, at the moment, be done on patients willing to have surgery.

Non-invasive brain scans are not powerful enough to read this level of information so it will remain limited to ‘small numbers of willing patients’.

He added: ‘Perhaps luckily for all those of us who value the privacy of their own thoughts, we can rest assured that our skulls will remain an impenetrable barrier for any would-be technological mind hacker for any foreseeable future.’

Aeroplanes will be too afraid to crash, yoghurts will wish you good morning before being eaten and human consciousness will be stored on supercomputers, promising immortality for all – though it will help to be rich.

These fantastic claims are not made by a science fiction writer or a crystal ball-gazing lunatic. They are the deadly earnest predictions of Ian Pearson, head of the futurology unit at BT.

‘If you draw the timelines, realistically by 2050 we would expect to be able to download your mind into a machine, so when you die it’s not a major career problem,’ Pearson told The Observer. ‘If you’re rich enough then by 2050 it’s feasible. If you’re poor you’ll probably have to wait until 2075 or 2080 when it’s routine. We are very serious about it. That’s how fast this technology is moving: 45 years is a hell of a long time in IT.’

Pearson, 44, has formed his mind-boggling vision of the future after graduating in applied mathematics and theoretical physics, spending four years working in missile design and the past 20 years working in optical networks, broadband network evolution and cybernetics in BT’s laboratories. He admits his prophecies are both ‘very exciting’ and ‘very scary’.

He believes that today’s youngsters may never have to die, and points to the rapid advances in computing power demonstrated last week, when Sony released the first details of its PlayStation 3. It is 35 times more powerful than previous games consoles. ‘The new PlayStation is 1 per cent as powerful as a human brain,’ he said. ‘It is into supercomputer status compared to 10 years ago. PlayStation 5 will probably be as powerful as the human brain.’

The world’s fastest computer, IBM’s BlueGene, can perform 70.72 trillion calculations per second (teraflops) and is accelerating all the time. But anyone who believes in the uniqueness of consciousness or the soul will find Pearson’s next suggestion hard to swallow. ‘We’re already looking at how you might structure a computer that could possibly become conscious. There are quite a lot of us now who believe it’s entirely feasible.

‘We don’t know how to do it yet but we’ve begun looking in the same directions, for example at the techniques we think that consciousness is based on: information comes in from the outside world but also from other parts of your brain and each part processes it on an internal sensing basis. Consciousness is just another sense, effectively, and that’s what we’re trying to design in a computer. Not everyone agrees, but it’s my conclusion that it is possible to make a conscious computer with superhuman levels of intelligence before 2020.’

He continued: ‘It would definitely have emotions – that’s one of the primary reasons for doing it. If I’m on an aeroplane I want the computer to be more terrified of crashing than I am so it does everything to stay in the air until it’s supposed to be on the ground.

‘You can also start automating an awful lots of jobs. Instead of phoning up a call centre and getting a machine that says, “Type 1 for this and 2 for that and 3 for the other,” if you had machine personalities you could have any number of call staff, so you can be dealt with without ever waiting in a queue at a call centre again.’

Pearson, from Whitehaven in Cumbria, collaborates on technology with some developers and keeps a watching brief on advances around the world. He concedes the need to debate the implications of progress. ‘You need a completely global debate. Whether we should be building machines as smart as people is a really big one. Whether we should be allowed to modify bacteria to assemble electronic circuitry and make themselves smart is already being researched.

‘We can already use DNA, for example, to make electronic circuits so it’s possible to think of a smart yoghurt some time after 2020 or 2025, where the yoghurt has got a whole stack of electronics in every single bacterium. You could have a conversation with your strawberry yogurt before you eat it.’

In the shorter term, Pearson identifies the next phase of progress as ‘ambient intelligence’: chips with everything. He explained: ‘For example, if you have a pollen count sensor in your car you take some antihistamine before you get out. Chips will come small enough that you can start impregnating them into the skin. We’re talking about video tattoos as very, very thin sheets of polymer that you just literally stick on to the skin and they stay there for several days. You could even build in cellphones and connect it to the network, use it as a video phone and download videos or receive emails.’

Philips, the electronics giant, is developing the world’s first rollable display which is just a millimetre thick and has a 12.5cm screen which can be wrapped around the arm. It expects to start production within two years.

The next age, he predicts, will be that of ‘simplicity’ in around 2013-2015. ‘This is where the IT has actually become mature enough that people will be able to drive it without having to go on a training course.

‘Forget this notion that you have to have one single chip in the computer which does everything. Why not just get a stack of little self-organising chips in a box and they’ll hook up and do it themselves. It won’t be able to get any viruses because most of the operating system will be stored in hardware which the hackers can’t write to. If your machine starts going wrong, you just push a button and it’s reset to the factory setting.’

Pearson’s third age is ‘virtual worlds’ in around 2020. ‘We will spend a lot of time in virtual space, using high quality, 3D, immersive, computer generated environments to socialise and do business in. When technology gives you a life-size 3D image and the links to your nervous system allow you to shake hands, it’s like being in the other person’s office. It’s impossible to believe that won’t be the normal way of communicating.

Thought Reading and Control

Artificial Intelligence

Artificial Intelligence-Nano Implants provides a new medical imaging technique for the brain and the possibility of “reverse engineering the brain”

The government lacks a regulator who can ensure that the laws for ethical review and informed consent for research on humans with brain implants followed. The shortage means that the Government neither can satisfy the requirements of the conventions on human rights and bioethics incumbent government, a precarious situation for European citizens.Graduate Abuse can happen completely without insight with brain-machine interface and e-science.

When science produces results that are changing the neurobiological description of human consciousness, what is left of the notions that humans have free will and personal responsibility for their actions? New knowledge about the neural basis of morality is blowing also renewed debate about the existence of a universal morality. These questions are discussed within the field of neuroethics, a subject that deals with the philosophical and ethical issues raised by neuroscience and cognitive research. (Centre for Research Ethics & Bioethics )

Scientists have the knowledge of the fMRI and PET cameras, among other things learned where in the brain electrodes (implants) must be placed to the E-science visualization of human perception.

In recent decades meetings between nanotechnology, information technology, biotechnology and neuroscience have produced a new research area, which is developing new, unknown products and services. We are facing a new revolution, which is already running with the launch of mind characterized universal computer. A unique perceptual tool, not only raise awareness for our minds but also imitate them: sight, hearing, taste, smell and touch.

CNN UN stands for Cellular Neural / Non-linear Network – Universal Machine. And there are three innovators Tamás Rosk, Leon Chua, and Angel Rodriguez Vazques, who are the pioneers behind the “revolution of the senses”. They have introduced a new computer policy, which differs from the digital model magazine sparkling, lower standards.

We’ve said ‘yes’ without any major protests to the electronic age “first wave”. When we are referring to the cheap chip that made the PC to every man’s tools. “The second wave” came creeping – also without objection. A series of inexpensive electronic means such as lasers, the Internet was built for broadband and mobile phone, which is now self-evident part of our everyday lives. In the “third wave”, it also applies connections to the brain, called brain-computer integration (brain-Macine interface) and related network-based human-machine language. This means both huge benefits but also disadvantages to humans. The disadvantages include complex legal implications, concerning the identity and integrity.

Info-Bionic challenging society. In the biological field, we first familiarize ourselves with “smart” devices and tools, which stimulates and motivates the human central nervous system. But it also outlines smart prostheses implanted in the living organism. The direct contact between these “smart” nano-implants and our central nervous system, pointing towards a symbiosis (living together), between brain and computer. This new realm, which is named for info-bionic, challenge course, the traditional values of society and its ethical standards.

Computer scientists also predicts that within the next few years neural interfaces will be designed so that it will not only increase the dynamic range of the senses, but will also enhance memory and enable “cyberthink” that invisible communication built on ideas.

Direct connection to the brain: It is without doubt the most complicated task. Here are dangers as great as the opportunities. This is also bioethics responsibility far greater than in those areas, which so far we have touched. But really, all mined areas and the limitation of the commercial profit hunger is therefore highly desirable.

Future Technologies, Future and Emerging Technologies – FET. The basis for this strategy is the focus on the future of Information and Communication Technology – ICT

Here are some quotes from the EU’s 7th Framework Programme. “Can one example understand and exploit the ways in which social and biological systems organize themselves and evolve, will pave the way for the development of new opportunities for next-generation software and network technologies. “ “The understanding of how the human brain works not only leads to innovations in medicine, but it also creates new models for energy, fault-tolerant and adaptive computer technology.” “FET support example, been crucial for research in quantum information technology in Europe. This technique promises an enormous computing power far beyond the capacity of ordinary computers, and also completely secure communications. By early investments have FET program made a decisive contribution to Europe now is a world leader in the field. “ “In the FET area carries, in addition, pioneering work on new ideas as artificial living cells, synthetic biology, chemical communication, collective intelligence and two-way interface between brain and machine.”

Research Council has published a booklet packed facts pocket “where gold glitters blue” on the new nanoscience. This new technology opens up tremendous opportunities, but also contains a number of ethical issues. Sweden Europe and the rest of the world currently lacks clear ethical guidelines.

Here are quotes from the book written by Ulf Görman, professor of ethics and religious studies at Lund University. Nanoelectronics! A number of ethical declarations have been introduced to prevent abuse of people, including the Declaration of Helsinki. In 1997, also signed the EU Member States’ Convention on Human Rights and Biomedicine “in the Spanish city of Oviedo. -These declarations have been added in response to the abuse of people who were in World War II. Oviedo Convention and other European rules have resulted in new legislation in Sweden. For example, the Privacy Act, which came into force in 1998, and the Act on Ethical Review of Research Involving Humans, which came into force in 2004. Ulf Görman believe that when we do a retrospective, it is easy for us to distinguish between unethical and ethical good research.

Now we open the doors to an unknown area where we do not know how to apply ethics.What should it be and what should not be allowed when you can make the electrode implant that can both influence and learn of the brain? He takes up the example of studying learning and memory. ”Micro Implants can provide unprecedented opportunities to understand how we learn and remember things, and hence why we forget and find it difficult to learn. While it may be perceived as a form of abuse that like that look in our most private mental world “.

Thought Control – a new ethical problem. Being able to connect the human brain to a computer via electrodes open, of course, frightening possibilities. Will it be feasible to control a person’s thoughts? There are important ethical aspects of this. One could of course theoretically able to control brain functions and modify people’s personality. For example, making them more or less prone to aggression or to increase learning ability by adding the chronic stimulation. It’s like with everything else, in that the knowledge is there, you can use it in many ways. Ulf Görman

Swedish and EU researchers possess, in secret, a privilege of the commercial profit hunger to develop these advanced technologies. Researchers may, without obtaining the informed consent and without the approval of an ethics board inject nanotechnology and research on humans, completely “Top Secret”. This is the way to the products, software and network technology is approaching patent application and a commercial launch of the research results, is on its way.

Research where informed consent could not be obtained and an approval of an ethics board would not be due to the physical and psychological risks for the individual is totally unknown, will not stop Swedish an EU researchers.

Withholding research reports on the development of new technologies means that the existing diagnosis in psychiatry and the judicial system disposes of the victims of abuse research, which makes these instances of “missing traders” for the illegal research. In this way, researchers will escape detection, and no responsibility. In nanotechnology and human-machine integration is the market and the power that controls, not ethics.

Because of that situation, people are slaughtered with impunity as research objects with the new technologies. When the legislative and diagnostics are missing, the computer-brain integration, it follows that attempts objects during research time exposed to serious torture.Graduate abuses have naturally resulted in the subjects in pure frustration committed ensanity acts and ended up in prison or in psychiatric care. Had the law existed and functioned, this research instead to point out that scientists are forced to drive people “across the border” and charged to the judiciary and mental health.

Although concrete evidence because of evaded research reports are currently lacking, so will future research and patents, of course, be able to uncover this hidden aggravated criminal research.

When the government knowingly or unknowingly withholds itself from scientific information will result in a right wrecked Sweden (EU). People can during the long development of the computer brains of the Internet-based human-machine language is not heard. This leads to pure execution is under development to cover up the criminal teknologys rampage.

How much longer must people illegally be injected at hospitals? How much longer must people’s brains are allowed to “cut” for the enslavement of the scientists’ services without compensation? How much longer must people assaulted, death and / or misdiagnosed before the government makes sure to meet the conventions on human rights and bioethics? Who takes responsibility for the children that are left homeless when the researchers injected and linked up attempts of people who have family, social welfare and labor? How many people have died earlier in scientific experiments because of lack of transparency in the Swedish neuroscience hunt for power and money? How many ensanity acts, traffic accidents, deaths in maternity hospitals, and even political murder has been diagnosed, but no account is taken of nanotechnology and the many years of development of technologies for computer-brain integration and the study of human behavior?

Five years of direct connectivity of the brain, the pattern recognition of brain neurons to cognitive behavior (perception), designed with artificial intelligence in a multimedia connection between brain implant and computers.

NEW YORK — Dreams of immortality inspired the fantastical tales of Greek historian Herodotus and Spanish explorer Juan Ponce de Leon’s legendary search for the fountain of youth. Nowadays, visionaries push for the technologies to transplant human brains into new bodies and download human consciousness into hologram-like avatars.

The latest science and schemes for achieving long life and the “singularity” moment of smarter-than-human intelligence came together at the Singularity Summit held here October 15-16. Some researchers explored cutting-edge, serious work about regenerating human body parts and defining the boundaries of consciousness in brain studies. Other speakers pushed visions of extending human existence in “Avatar”- style bodies — one initiative previously backed by action film star Steven Seagal — with fuzzier ideas about how to create such a world.

Above all, the summit buzzed with optimism about technology’s ability to reshape the world to exceed humanity’s wildest dreams, as well as a desire to share that vision with everyone. True believers were even offered the chance to apply for a credit card that transfers purchase rewards to the Singularity Institute.

“Humanity is about going beyond biological limitations,” said Ray Kurzweil, the inventor and futurist whose vision drives the Singularity Institute.

Rebuilding a healthy body The most immediate advances related to living longer and better may come from regenerative medicine. Pioneering physicians have already regrown the tips of people’s fingers and replaced cancer-ridden parts of human bodies with healthy new cells.

“What we’re talking about here is not necessarily increasing the quantity of life but the quality of life,” said Stephen Badylak, deputy director of the McGowan Institute for Regenerative Medicine at the University of Pittsburgh in Pennsylvania.

Success so far has come from using a special connective tissue — called the extracellular matrix (ECM) — to act as a biological scaffold for healthy cells to build upon. Badylak showed a video where his team of surgeons stripped out the cancerous lining of a patient’s esophagus like pulling out a sock, and relined the esophagus with an ECM taken from pigs. The patient remains cancer-free several years after the experimental trial.

The connective tissue of other animals doesn’t provoke a negative response in human bodies, because it lacks the foreign animal cells that would typically provoke the immune system to attack. It has served the same role as a biological foundation for so long that it represents a “medical device that’s gone through hundreds of millions of years of R&D,” Badylak said.

Live long and prosper The work of such researchers could do more than just keep humans happy and healthy. By tackling end-of-life chronic diseases such as cancer, medical advances could nearly double human life expectancy beyond almost 80 years in the U.S. to 150 years, said Sonia Arrison, a futurist at the Pacific Research Institute in San Francisco, Calif.

Long-lived humans could lead to problems such as anger over a “longevity gap” between haves and have-nots and perhaps add to stress on food, water and energy sources. But Arrison took a more positive view of how “health begets wealth” in a talk based on her new book, “100 Plus” (Basic Books, 2011).

Having healthier people around for longer means that they can remain productive far later in life, Arrison pointed out. Many past innovators accomplished some of their greatest or most creative work relatively late in life — Leonardo da Vinci began painting the Mona Lisa at 51, and Benjamin Franklin conducted his kite experiment at 46.

“Innovation is a late-peak field,” Arrison told the audience gathered at the Singularity Summit.

Even religion might find a renewed role in a world where death increasingly looks far off, Arrison said. Religion remains as popular as ever despite a doubling of human life expectancy up until now, and so Arrison suggested that religions focused on providing purpose or guidance in life could do well. But religions focused on the afterlife may want to rethink their strategy.

Making ‘Avatar’ real (or not) The boldest scheme for immortality came from media mogul Dmitry Itskov, who introduced his “Project Immortality 2045: Russian Experience.” He claimed support from the Russian Federation’s Ministry of Education and Science, as well as actor Seagal, to create a research center capable of giving humans life-extending bodies.

Itskov’s wildly ambitious plans include creating a humanoid avatar body within five to seven years, transplanting a human brain into a new “body B” in 10 to 15 years, digitally uploading a human brain’s consciousness in 20 to 25 years, and moving human consciousness to hologram-like bodies in 30 to 35 years.

That vision may have exceeded even the optimism of many Singularity Summit attendees, given the apparent restlessness of the crowd during Itskov’s presentation. But it did little to dampen the conference’s overall sense that humanity has a positive future within its collective grasp — even if some people still need to be convinced.

“We are storming the fricking barricades of death, both physically and intellectually, so we have to make it sexy,” said Jason Silva, a filmmaker and founding producer/host for Current TV.

The missing link between us and the future

In the early 1990s, the IT industry got very excited about virtual reality, the idea that you could use some sort of headset display to wander around in a 3d computer-generated world. We quickly realised there are zillions of variations on this idea, and after the one that became current computer gaming (3d worlds on a 2d monitor) the biggest of the rest was augmented reality, where data and images could be superimposed on the field of view.

Now, we are seeing apps on phones and pads that claim to be augmented reality, showing where the nearest tube station is for example. To a point I guess they are, but only in as far as they can let you hold up a display in front of you and see images relevant to the location and direction. They hardly amount to a head up display, and fall a long way short of the kind of superimposition we’re been used to on sci-fi since Robocop or Terminator. It is clear that we really need a proper head-up display, one that doesn’t require you to take a gadget out and hold it up in front of you.

There are some head-up displays out there. Some make overlay displays in a small area of your field of view, often using small projectors and mirrors. Some use visors. However the video visor based displays are opaque. They are fine for watching TV or playing games while seated, but not much use for wandering around.

This will change in the next 18 months – 2 years. Semi-transparent visors will begin to appear then. The few years after that will undoubtedly see rapid development of them, eventually bringing a full hi-res 3d overlay capability. And that will surely be a major disruptive technology. Just as we are getting used to various smart phones, pads, ebbook readers and 3d TVs, they could all be absorbed into a general purpose head up display that can be used for pretty much anything.

It is hard to overstate the potential of this kind of interface once it reaches good enough quality. It allows anything from TV, games, or the web, to be blended with any real world scene or activity. This will transform how we shop, work and socialise, how we design and use buildings, and even how we use art or display ourselves. Each of these examples could easily fill a book. The whole of the world wide web was enabled by the convergence of just the computing and telecoms industries. The high quality video visor will enable convergence of the real world with the whole of the web, media, and virtual worlds, not just two industry sectors. Augmented reality will be a huge part of that, but even virtual reality and the zillions of variants can then start to be explored too.

In short, the semi-transparent video visor is the missing link. It is the biggest bottleneck now stopping the future arriving. Everything till we get that is a sideshow.